DE521101C - Portable sundial with divided time equation curves - Google Patents

Description

Portable sundial with subdivided equation of time curves subject The invention is a portable and adjustable sundial that works on any Place of the earth's surface can be placed and either the mean time of the meridian of the place of installation or the mean time of the in the country of installation as the relevant assumed meridians.

It is known to design time equation curves on a flat surface and the relevant point of the curve by means of a shadow casting Determine gnomons. But at certain times of the day and year the shadows become uncomfortably long, so the curved surfaces are uncomfortably extended. To this evil too avoid are, according to the invention, the time equation curves on parallel to the equatorial plane arranged concave plates, on which the middle of the plate is placed penetrating, shadow-throwing gnomon parallel to the axis of the earth executes a full revolution.

The drawing serves to explain the invention in more detail.

Fig. I is an axis section through: the one set for the 42nd degree of latitude Sundial. Fig. 2 and 2a show the top view for the period from December 22nd to March 21st and from March 21st to June 22nd (astronomical winter and spring) two plates to be used. Fig. 3 to 5 are the horizontal sections after the Lines A-B, C-D and E-F of Fig. I.

On a pillar of a metal or a wooden plate is a base plate i attached, which carries an axis 2 ending in a threaded piece in the middle. A nut 3 screwed onto the threaded piece holds: a plate q., Which by means of three support screws, i ', i ", i"' is set exactly horizontally. The plate carries a frame q.a, in the middle of which a rotatable axle 5 is arranged upright is. An arm 6 can be pivoted on a transverse pin 5 'at the upper end of the axle 5, which carries the ring-shaped clock disc at its end. The ones with a cross or A clock disk with an arm star is held in the middle by a gnomon (shadow-throwing Rod) 8 penetrated, which protrudes over the two sides of the ring-shaped disc 7.

On each side of the annular disc 7 are the two annular, Concave plate 7a attached to which the curves for the hours, the half Hours and the quarter hours in the mean time are drawn on: those the gnomon with its shadow forms the pointer.

The sundial is set to the local latitude as follows: If the geographical latitude is known, then the disk 7 is next to that in its plane lying arm 6 rotated about the pivot axis 5 ', until the one with the Arm 6 connected angle measuring disk 16 by means of one located on the axis 5 Mark the geographical latitude is read off. In the example shown is the .f2. Latitude set. The angle measuring disk is now secured by means of a screw i7 16 clamped on axis 5.

If the geographical latitude is unknown, one gives: the clock at .die Noon hour. Such a position that the shadow of the Gnornon on the circle falls on the day on which the setting is made, e.g. B. April 14th. then the protractor indicates the geographical latitude.

On the meridian of the place of installation -the. Clock set as follows.

On the plate 4 a board i i is attached, the one standing Rod 12 carries: on whose eyelet 13 the solder 14 hangs. After the panel i i in two has been brought into a horizontal position at right angles to each other they stuck at io. The base point of the dull plumb bob is marked on the board. Around this point as the center there are two or three arcs with different radius beaten, the largest of which has just enough space on the board. It is observed when the light beam falling through the eyelet 13 advances each of the arcs drawn cuts, namely it becomes both when entering and when exiting the light spot observed from the arc. By: the two that result in each circle hail A chord is placed at intersections. and the rarities are halved. The halving points are connected to each other and to the base of the perpendicular, creating a straight line results. The straight line found represents the meridian of the location The next few days it is observed when the light beam passing through the eyelet crosses the meridian line cuts. At this moment the plates are set so that the shadow .of the gnomon 8 exactly on .the straight line 12 to a4 of the clock disc falls. Now will the nut 15 is tightened and thus the axis of rotation 5 is established. After implementation During this work the clock is set to the meridian of the place.

However, the setting to local time is usually not desired, but on country time, d. H. on a different in front Ortnieridian, for the Landeszett as a significant meridian determined by agreement. To get from the To go over setting on the local meridian to setting on the country meridian, you only need to move the Ort disc to move so much straight line against the Ortmeri-dian, than the two: meridians deviate from each other. This deviation, 2icli, Lung must be known be. To enable this shift is on the upper surface of the frame a graduation 18 is provided and firmly connected to the axis 5 .ein pointer io.

If the sundials made according to the invention in large sizes, so you can on the divisions for j eden single day of the year circles be drawn, rather than as assumed in the drawing, only one in ten days. In this case the sundial is also a calendar.

Claims (1)

PATENT CLAIMS: i. Portable sundial with subdivided time equation curves, which are either for the mean time of the installation site or for the mean time of any other meridian, e.g. B. of the meridian assumed for .flie national time, characterized in that these time equation curves are mounted on concave plates (7a) arranged parallel to the equatorial plane, on which a shadow-casting gnomon (8) which penetrates the plate cuts and which is parallel to the salmon the display shadow rotates one full turn. a. Portable sun glasses according to An: sprucb i, characterized in that for each of the four astronomical seasons (December 22 to January 21, March, March 21 to June 22, June 22 to September 21, September 21 to 22 Dzern.ber) a special Uhrteller each (7a) with Zeitgleichungskun, s is provided, and two of these plates on each side: be attached parallel to the equator of the adjustable base Eibene, such that in each case only at the time of the solstice (on June 22nd and December 22nd) that one pair of plates needs to be exchanged for the other. 3. Portable sundial according to -den claims, i and 2: characterized in that the clock plates in addition to the time equation curves also have day circles for reading the date or for determining the local latitude, also on the edge a graduation that allows the time to any other meridians.